Mobile information and control terminal for ultrasonic diagnostic systems and methods of using the same

ABSTRACT

Aspects of present disclosure relates to mobile information and control terminals for ultrasonic diagnostic systems and the ultrasonic diagnostic systems. In certain embodiments, ultrasonic diagnostic system includes: a mobile information and control terminal, a local host in a first location, a remote host connected to an ultrasonic diagnostic imaging system in a second location, and a communication network. Mobile information and control terminal is operated by an ultrasonic diagnostic expert in the first location. Mobile information and control terminal retrieves patient information of a patient from patient database, provides ultrasonic diagnostic control instructions from ultrasonic diagnostic expert to ultrasonic diagnostic technicians in second location. An ultrasonic diagnostic technician performs ultrasonic diagnostic examination on patient according to ultrasonic diagnostic control instructions and transmits patient ultrasonic diagnosis information back to local host and ultrasonic diagnostic expert in real time. The ultrasonic diagnostic expert then generates and displays ultrasonic diagnosis reports of patient.

FIELD

The present disclosure generally relates to ultrasonic diagnostictechnology, and more particularly to a mobile information and controlterminal for an ultrasonic diagnostic system, an ultrasonic diagnosticsystem and methods of using the ultrasonic diagnostic system.

BACKGROUND

Ultrasonic diagnostic system is a diagnostic imaging technique based onthe application of ultrasound. It is used to see internal bodystructures such as tendons, muscles, joints, blood vessels, and internalorgans. Its aim is often to find a source of a disease or to exclude anypathology. The practice of examining pregnant women using ultrasound iscalled obstetric ultrasound, and is widely used.

Ultrasound is sound waves with frequencies which are higher than thoseaudible to humans (>20,000 Hz). As illustrated in FIG. 6 , ultrasonicimages, also known as sonograms, are made by sending pulses ofultrasound into tissue of a patient 602 using a probe 612 by anultrasonic diagnostic technician 601 or an ultrasonic diagnostic expert.The sound echoes off the tissue; with different tissues reflectingvarying degrees of sound. These echoes are recorded and displayed as animage on a display device 611 of an ultrasonic diagnostic imaging system610 to the ultrasonic diagnostic expert. The ultrasonic diagnosticexpert is usually a skilled and experienced radiologist who maneuversthe probe 612 in various angles and positions in real time to get aclear understanding of the patient's disease and to obtain conclusivediagnosis. Such an expert is scarce resource, and may not be availablein many areas such as rural areas and many remote countryside locations.Currently, many ultrasonic diagnostic experts have to travel to theseareas to perform ultrasonic diagnosis, which makes ultrasonic diagnostictechnology very expensive for the patients in these areas. Sometimes itscosts make it impossible to perform ultrasonic diagnosis in these areas,and sometimes the patients from these areas may have to travel to majorcities to access such ultrasonic diagnostic systems. It is desirable tohave an ultrasonic diagnostic system that allows an ultrasonicdiagnostic expert in anywhere to perform ultrasonic diagnosis on apatient in a different location with helps from an ultrasonic diagnostictechnician 601 and without forcing either the ultrasonic diagnosticexpert or the patient to travel to the same location.

Therefore, heretofore unaddressed needs still exist in the art toaddress the aforementioned deficiencies and inadequacies.

SUMMARY

In one aspect, the present disclosure relates to a mobile informationand control terminal for an ultrasonic diagnostic system. In certainembodiments, the mobile information and control terminal includes: aninformation interface, a control interface, an information multiplexer,and a network interface, a processor, and a memory. The informationinterface receives and transmits ultrasonic diagnosis informationbetween the mobile information and control terminal, a local host in afirst location, and a remote host in a second location through one ormore information channels. The control interface receives ultrasonicdiagnostic control instructions from an ultrasonic diagnostic expert andtransmits the ultrasonic diagnostic control instructions to the localhost, and the remote host through one or more control channels. Theinformation multiplexer receives, exchanges and transmits the ultrasonicdiagnosis information through the one or more information channels inthe ultrasonic diagnostic system. The network interface connects themobile information and control terminal to a communication network.

In certain embodiments, the memory includes comprises random accessmemory (RAM) for supporting the operation of the processor, and anon-volatile storage device (NVSD). The non-volatile storage devicestores an operating system, and computer executable instructions. Whenexecuted on the processor, the computer executable instructions causethe processor to perform: establishing network connection between themobile information and control terminal, the local host in the firstlocation, a patient database and the remote host in the second locationthrough the network interface over the communication network, andretrieving, by the mobile information and control terminal, the patientinformation of a patient from the patient database. The computerexecutable instructions cause the processor to perform: instructing, byan ultrasonic diagnostic expert in the first location, an ultrasonicdiagnostic technician in the second location using the ultrasonicdiagnostic control instructions through the one or more controlchannels, performing, by the ultrasonic diagnostic technician,ultrasonic diagnostic examination on the patient interactively accordingto the ultrasonic diagnostic control instructions, receiving, by themobile information and control terminal, ultrasonic diagnosisinformation from the ultrasonic diagnostic technician in real time, andgenerating, via the mobile information and control terminal by theultrasonic diagnostic expert, an ultrasonic diagnosis report andtransmitting the ultrasonic diagnosis report to a doctor of the patientand the patient database.

In certain embodiments, the one or more information channels include: afirst information channel I₁, a second information channel I₂, . . . ,and an M-th information channel I_(M), where M is a positive integer.The one or more information channels include: one or more patientinformation channel for transmission of the patient information, one ormore information channels from the local host to the remote host fordemonstrations by the ultrasonic diagnostic expert, one or moreinformation channels from the remote host to the local host for realtime ultrasonic diagnosis by the ultrasonic diagnostic technician, andone or more ultrasonic diagnosis report transmission channels.

In certain embodiments, the one or more control channels include: afirst control channel C₁, a second control channel C₂, . . . , and anN-th control channel C_(N), wherein N is a positive integer. The one ormore control channels include: one or more audio signal transmissionchannels, one or more image signal transmission channels, one or morevideo signal transmission channels, and one or more robotic controlsignal transmission channels.

In another aspect, the present disclosure relates to an ultrasonicdiagnostic system. In certain embodiments, the ultrasonic diagnosticsystem includes: a mobile information and control terminal, a local hostin a first location, a remote host connected to an ultrasonic diagnosticimaging system in a second location, and a communication network. Themobile information and control terminal is connected to thecommunication network and operated by an ultrasonic diagnostic expertlocated in the first location. The mobile information and controlterminal retrieves patient information of a patient from a patientdatabase, provides ultrasonic diagnostic control instructions from theultrasonic diagnostic expert, receives patient ultrasonic diagnosisinformation, and generates and displays ultrasonic diagnosis reports ofthe patient.

In certain embodiments, the local host is connected to the communicationnetwork and retrieves the patient information of the patient from thepatient database, providing ultrasonic diagnostic control instructionsfrom the ultrasonic diagnostic expert, and receiving ultrasonicdiagnosis information, generating and displaying ultrasonic diagnosisreports of the patient. The remote host is connected to the ultrasonicdiagnostic imaging system in the second location. An ultrasonicdiagnostic technician performs ultrasonic diagnostic examination on thepatient with the ultrasonic diagnostic imaging system according to theultrasonic diagnostic control instructions received from the ultrasonicdiagnostic expert and generates and transmits ultrasonic diagnosisinformation to the ultrasonic diagnostic expert. The communicationnetwork connects the mobile information and control terminal, the localhost, the remote host, and the patient database through one or moreinformation channels and one or more control channels.

In certain embodiments, the ultrasonic diagnostic system retrieves thepatient information of the patient from the patient database, receivesthe ultrasonic diagnostic control instructions from the ultrasonicdiagnostic expert through the mobile information and control terminal,instructs the ultrasonic diagnostic technician to perform ultrasonicdiagnostic examination on the patient in the second location, receivesreal time ultrasonic diagnosis information interactively from the remotehost, generates and displays the ultrasonic diagnosis information of thepatient, and transmits the ultrasonic diagnosis information of thepatient to the remote host and the patient database.

In certain embodiments, the communication network includes: a wirelesspersonal area network (WPAN), a wireless local area network (WLAN), awireless metropolitan area network (WMAN), a wireless wide area network(WWAN), a cellular network, a mobile communication network, and anycombinations of these networks. The wireless personal area network(WPAN) may include a Wi-Fi network; a Bluetooth network, an infrarednetwork, and a Zigbee network.

In certain embodiments, the one or more information channels include: afirst information channel I₁, a second information channel I₂, . . . ,and an M-th information channel I_(M), where M is a positive integer.The one or more information channels include: one or more patientinformation channel for transmission of the patient information, one ormore information channels from the local host to the remote host fordemonstrations by the ultrasonic diagnostic expert, one or moreinformation channels from the remote host to the local host for realtime ultrasonic diagnosis by the ultrasonic diagnostic technician, andone or more ultrasonic diagnosis report transmission channels.

In certain embodiments, the one or more control channels include: afirst control channel C₁, a second control channel C₂, . . . , and anN-th control channel C_(N), wherein N is a positive integer. The one ormore control channels include: one or more audio signal transmissionchannels, one or more image signal transmission channels, one or morevideo signal transmission channels, and one or more robotic controlsignal transmission channels.

In certain embodiments, the mobile information and control terminal isconnected to one or more information display devices. The one or moreinformation display devices include: one or more flat panel televisions(TVs), high definition televisions (HDTVs), and ultra-high-definitiontelevisions (UHDTVs), one or more TVs, HDTVs, and UHDTVs having touchcontrol panels, one or more computer monitors, one or more computermonitors having touch control panels, one or more smart phones, one ormore tablet computers, one or more personal digital assistant (PDA)devices, one or more optical projectors, one or more laser projectors,and any combinations of these display devices.

In certain embodiments, each of the one or more information displaydevices is partitioned to display one or more ultrasonic diagnosisinformation and results from the one or more information channels.

In certain embodiments, the local host includes: a local informationinterface, a local control interface, a local network interface, a localinformation multiplexer, a local processor and a local memory. The localinformation interface receives and transmits ultrasonic diagnosisinformation between the local host and the remote host through the oneor more information channels. The local control interface receives theultrasonic diagnostic control instructions from the ultrasonicdiagnostic expert through the mobile information and control terminaland transmits the ultrasonic diagnostic control instructions to theremote host through the one or more control channels. The local networkinterface connects the local host to the communication network. Thelocal information multiplexer receives, exchanges and transmits theultrasonic diagnosis information through the one or more informationchannels in the ultrasonic diagnostic system.

In certain embodiments, the local memory includes random access memory(RAM) for supporting the operation of the local processor, and anon-volatile storage device (NVSD). The non-volatile storage device(NVSD) stores an operating system, and computer executable instructions.When executed on the local processor, the computer executableinstructions cause the local processor to perform: establishing networkconnection between the mobile information and control terminal, thelocal host in the first location through the local network interface,the patient database and the remote host in the second location througha remote network interface over the communication network, andretrieving, by the local host, the patient information of the patientfrom the patient database. The computer executable instructions furthercause the local processor to perform: instructing, by sending theultrasonic diagnostic control instructions to the ultrasonic diagnostictechnician in the second location to perform ultrasonic diagnosticexamination on the patient interactively according to the ultrasonicdiagnostic control instructions, receiving, from the remote host,ultrasonic diagnosis information interactively in real time, andgenerating, by the ultrasonic diagnostic expert, an ultrasonic diagnosisreport and transmitting the ultrasonic diagnosis report to a doctor ofthe patient and the patient database.

In certain embodiments, the remote host includes: a remote informationinterface, a remote control interface, the remote network interface, aremote information multiplexer, a remote processor and a remote memory.The remote information interface receives and transmits ultrasonicdiagnosis information between the local host and the remote host throughthe one or more information channels. The remote control interfacereceives the ultrasonic diagnostic control instructions from theultrasonic diagnostic expert through the mobile information and controlterminal over the one or more control channels. The remote networkinterface connects the remote host to the communication network. Theremote information multiplexer receives, exchanges and transmits theultrasonic diagnosis information through the one or more informationchannels in the ultrasonic diagnostic system.

In certain embodiments, the remote memory includes random access memory(RAM) for supporting the operation of the remote processor, and anon-volatile storage device (NVSD). The non-volatile storage device(NVSD) stores an operating system and computer executable instructions.When executed on the remote processor, the computer executableinstructions cause the remote processor to perform: establishing networkconnection to the patient database and the remote host in the secondlocation through the remote network interface over the communicationnetwork, and receiving, by the ultrasonic diagnostic technician in thesecond location, the ultrasonic diagnostic control instructions. Thecomputer executable instructions further cause the remote processor toperform: instructing the ultrasonic diagnostic technician to performultrasonic diagnostic examination on the patient interactively accordingto the ultrasonic diagnostic control instructions, transmittingultrasonic diagnosis information to the ultrasonic diagnostic expertinteractively in real time through the one or more information channels,and receiving, by the ultrasonic diagnostic technician, an ultrasonicdiagnosis report of the patient from the ultrasonic diagnostic expert.

In yet another aspect, the present disclosure relates to a method ofusing an ultrasonic diagnostic system. In certain embodiments, themethod includes: installing a local host in a first location where anultrasonic diagnostic expert is performing ultrasonic diagnosis usingultrasonic diagnostic control instructions via a mobile information andcontrol terminal, installing a remote host in a second location where anultrasonic diagnostic technician is performing ultrasonic diagnosticexamination on a patient using an ultrasonic diagnostic imaging systemaccording to the ultrasonic diagnostic control instructions from theultrasonic diagnostic expert, connecting the mobile information andcontrol terminal, the local host, the remote host, a patient database toa communication network through one or more information channels and oneor more control channels, and retrieving, by the mobile information andcontrol terminal, patient information of the patient from the patientdatabase and displaying the retrieved patient information to theultrasonic diagnostic expert.

In certain embodiments, the method also includes: providing, by theultrasonic diagnostic expert in the first location, ultrasonicdiagnostic control instructions to the ultrasonic diagnostic technicianthrough the one or more control channels, receiving, by the ultrasonicdiagnostic technician in the second location, the ultrasonic diagnosticcontrol instructions and performing ultrasonic diagnostic examination onthe patient interactively according to the ultrasonic diagnostic controlinstructions, transmitting, by the ultrasonic diagnostic technician,ultrasonic diagnosis information to the ultrasonic diagnostic expertinteractively in real time through the one or more information channels,and generating, by the ultrasonic diagnostic expert, an ultrasonicdiagnosis report, and transmitting the ultrasonic diagnosis report to adoctor of the patient and the patient database.

In certain embodiments, the communication network includes: a wirelesspersonal area network (WPAN), a wireless local area network (WLAN), awireless metropolitan area network (WMAN), a wireless wide area network(WWAN), a cellular network, a mobile communication network, and anycombinations of these networks. The wireless personal area network(WPAN) may include a Wi-Fi network; a Bluetooth network, an infrarednetwork, and a Zigbee network.

In certain embodiments, the one or more information channels include: afirst information channel I₁, a second information channel I₂, . . . ,and an M-th information channel I_(M), where M is a positive integer.The one or more information channels include: one or more patientinformation channel for transmission of the patient information, one ormore information channels from the local host to the remote host fordemonstrations by the ultrasonic diagnostic expert, one or moreinformation channels from the remote host to the local host for realtime ultrasonic diagnosis by the ultrasonic diagnostic technician, andone or more ultrasonic diagnosis report transmission channels.

In certain embodiments, the one or more control channels include: afirst control channel C₁, a second control channel C₂, . . . , and anN-th control channel C_(N), wherein N is a positive integer. The one ormore control channels include: one or more audio signal transmissionchannels, one or more image signal transmission channels, one or morevideo signal transmission channels, and one or more robotic controlsignal transmission channels.

In certain embodiments, the mobile information and control terminal isconnected to one or more information display devices. The one or moreinformation display devices include: one or more flat panel televisions(TVs), high definition televisions (HDTVs), and ultra-high-definitiontelevisions (UHDTVs), one or more TVs, HDTVs, and UHDTVs having touchcontrol panels, one or more computer monitors, one or more computermonitors having touch control panels, one or more smart phones, one ormore tablet computers, one or more personal digital assistant (PDA)devices, one or more optical projectors, one or more laser projectors,and any combinations of these display devices.

In certain embodiments, each of the one or more information displaydevices is partitioned to display one or more ultrasonic diagnosisinformation and results from the one or more information channels.

In certain embodiments, the local host includes: a local informationinterface, a local control interface, a local network interface, a localinformation multiplexer, a local processor and a local memory. The localinformation interface receives and transmits ultrasonic diagnosisinformation between the local host and the remote host through the oneor more information channels. The local control interface receives theultrasonic diagnostic control instructions from the ultrasonicdiagnostic expert through the mobile information and control terminaland transmits the ultrasonic diagnostic control instructions to theremote host through the one or more control channels. The local networkinterface connects the local host to the communication network. Thelocal information multiplexer receives, exchanges and transmits theultrasonic diagnosis information through the one or more informationchannels in the ultrasonic diagnostic system.

In certain embodiments, the local memory includes random access memory(RAM) for supporting the operation of the local processor, and anon-volatile storage device (NVSD). The non-volatile storage device(NVSD) stores an operating system, and computer executable instructions.When executed on the local processor, the computer executableinstructions cause the local processor to perform: establishing networkconnection between the mobile information and control terminal, thelocal host in the first location through the local network interface,the patient database and the remote host in the second location througha remote network interface over the communication network, andretrieving, by the local host, the patient information of the patientfrom the patient database. The computer executable instructions furthercause the local processor to perform: instructing, by sending theultrasonic diagnostic control instructions to the ultrasonic diagnostictechnician in the second location to perform ultrasonic diagnosticexamination on the patient interactively according to the ultrasonicdiagnostic control instructions, receiving, from the remote host,ultrasonic diagnosis information interactively in real time, andgenerating, by the ultrasonic diagnostic expert, an ultrasonic diagnosisreport and transmitting the ultrasonic diagnosis report to a doctor ofthe patient and the patient database.

In certain embodiments, the remote host includes: a remote informationinterface, a remote control interface, the remote network interface, aremote information multiplexer, a remote processor and a remote memory.The remote information interface receives and transmits ultrasonicdiagnosis information between the local host and the remote host throughthe one or more information channels. The remote control interfacereceives the ultrasonic diagnostic control instructions from theultrasonic diagnostic expert through the mobile information and controlterminal over the one or more control channels. The remote networkinterface connects the remote host to the communication network. Theremote information multiplexer receives, exchanges and transmits theultrasonic diagnosis information through the one or more informationchannels in the ultrasonic diagnostic system.

In certain embodiments, the remote memory includes random access memory(RAM) for supporting the operation of the remote processor, and anon-volatile storage device (NVSD). The non-volatile storage device(NVSD) stores an operating system and computer executable instructions.When executed on the remote processor, the computer executableinstructions cause the remote processor to perform: establishing networkconnection to the patient database and the remote host in the secondlocation through the remote network interface over the communicationnetwork, and receiving, by the ultrasonic diagnostic technician in thesecond location, the ultrasonic diagnostic control instructions. Thecomputer executable instructions further cause the remote processor toperform: instructing the ultrasonic diagnostic technician to performultrasonic diagnostic examination on the patient interactively accordingto the ultrasonic diagnostic control instructions, transmittingultrasonic diagnosis information to the ultrasonic diagnostic expertinteractively in real time through the one or more information channels,and receiving, by the ultrasonic diagnostic technician, an ultrasonicdiagnosis report of the patient from the ultrasonic diagnostic expert.

These and other aspects of the present disclosure will become apparentfrom the following description of the preferred embodiment taken inconjunction with the following drawings, although variations andmodifications therein may be effected without departing from the spiritand scope of the novel concepts of the disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings illustrate one or more embodiments of thepresent disclosure, and features and benefits thereof, and together withthe written description, serve to explain the principles of the presentinvention. Wherever possible, the same reference numbers are usedthroughout the drawings to refer to the same or like elements of anembodiment, and wherein:

FIG. 1 shows a block diagram of an ultrasonic diagnostic systemaccording to certain embodiments of the present disclosure;

FIG. 2 shows a block diagram of a mobile information and controlterminal for the ultrasonic diagnostic system according to certainembodiments of the present disclosure;

FIG. 3 illustrates various information display devices for theultrasonic diagnostic system according to certain embodiments of thepresent disclosure;

FIG. 4 illustrates each of the information display devices is flexiblypartitioned to display information from one or more information channelsaccording to certain embodiments of the present disclosure;

FIG. 5 illustrates the mobile information and control terminal where itsdisplay device is flexibly partitioned to display information from oneor more information channels according to certain embodiments of thepresent disclosure;

FIG. 6 illustrates an ultrasonic diagnostic technician performingultrasonic diagnostic procedure on a patient using an ultrasonicdiagnostic imaging system in a remote location according to certainembodiments of the present disclosure; and

FIG. 7 shows a flow chart of a method of using the ultrasonic diagnosticsystem according to certain embodiments of the present disclosure.

DETAILED DESCRIPTION

The present disclosure is more particularly described in the followingexamples that are intended as illustrative only since numerousmodifications and variations therein will be apparent to those skilledin the art. Various embodiments of the disclosure are now described indetail. Referring to the drawings, like numbers, if any, indicate likecomponents throughout the views. As used in the description herein andthroughout the claims that follow, the meaning of “a”, “an”, and “the”includes plural reference unless the context clearly dictates otherwise.Also, as used in the description herein and throughout the claims thatfollow, the meaning of “in” includes “in” and “on” unless the contextclearly dictates otherwise. Moreover, titles or subtitles may be used inthe specification for the convenience of a reader, which shall have noinfluence on the scope of the present disclosure. Additionally, someterms used in this specification are more specifically defined below.

The terms used in this specification generally have their ordinarymeanings in the art, within the context of the disclosure, and in thespecific context where each term is used. Certain terms that are used todescribe the disclosure are discussed below, or elsewhere in thespecification, to provide additional guidance to the practitionerregarding the description of the disclosure. For convenience, certainterms may be highlighted, for example using italics and/or quotationmarks. The use of highlighting has no influence on the scope and meaningof a term; the scope and meaning of a term is the same, in the samecontext, whether or not it is highlighted. It will be appreciated thatsame thing can be said in more than one way. Consequently, alternativelanguage and synonyms may be used for any one or more of the termsdiscussed herein, nor is any special significance to be placed uponwhether or not a term is elaborated or discussed herein. Synonyms forcertain terms are provided. A recital of one or more synonyms does notexclude the use of other synonyms. The use of examples anywhere in thisspecification including examples of any terms discussed herein isillustrative only, and in no way limits the scope and meaning of thedisclosure or of any exemplified term. Likewise, the disclosure is notlimited to various embodiments given in this specification.

Unless otherwise defined, all technical and scientific terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which this disclosure pertains. In the case of conflict, thepresent document, including definitions will control.

As used herein, “around”, “about” or “approximately” shall generallymean within 20 percent, preferably within 10 percent, and morepreferably within 5 percent of a

given value or range. Numerical quantities given herein are approximate,meaning that the term “around”, “about” or “approximately” can beinferred if not expressly stated.

As used herein, “plurality” means two or more.

As used herein, the terms “comprising,” “including,” “carrying,”“having,” “containing,” “involving,” and the like are to be understoodto be open-ended, i.e., to mean including but not limited to.

As used herein, the phrase at least one of A, B, and C should beconstrued to mean a logical (A or B or C), using a non-exclusive logicalOR. It should be understood that one or more steps within a method maybe executed in different order (or concurrently) without altering theprinciples of the present disclosure.

As used herein, the term module may refer to, be part of, or include anApplication Specific Integrated Circuit (ASIC); an electronic circuit; acombinational logic circuit; a field programmable gate array (FPGA); aprocessor (shared, dedicated, or group) that executes code; othersuitable hardware components that provide the described functionality;or a combination of some or all of the above, such as in asystem-on-chip. The term module may include memory (shared, dedicated,or group) that stores code executed by the processor.

The term code, as used above, may include software, firmware, and/ormicrocode, and may refer to programs, routines, functions, classes,and/or objects. The term shared, as used above, means that some or allcode from multiple modules may be executed using a single (shared)processor. In addition, some or all code from multiple modules may bestored by a single (shared) memory. The term group, as used above, meansthat some or all code from a single module may be executed using a groupof processors. In addition, some or all code from a single module may bestored using a group of memories.

The apparatuses and methods described herein may be implemented by oneor more computer programs executed by one or more processors. Thecomputer programs include processor-executable instructions that arestored on a non-transitory tangible computer readable medium. Thecomputer programs may also include stored data. Non-limiting examples ofthe non-transitory tangible computer readable medium are nonvolatilememory, magnetic storage, and optical storage.

The present disclosure will now be described more fully hereinafter withreference to the accompanying drawings FIGS. 1 through 7 , in whichembodiments of the disclosure are shown. This disclosure may, however,be embodied in many different forms and should not be construed aslimited to the embodiments set forth herein; rather, these embodimentsare provided so that this disclosure will be thorough and complete, andwill fully convey the scope of the disclosure to those skilled in theart. Like numbers refer to like elements throughout.

In one aspect, the present disclosure relates to a mobile informationand control terminal 140 for an ultrasonic diagnostic system 100, asshown in FIG. 2 . In certain embodiments, the mobile information andcontrol terminal 140 includes: an information interface 14001, a controlinterface 14002, an information multiplexer 14003, and a networkinterface 14004, a processor 14005, and a memory 14006. The informationinterface 14001 receives and transmits ultrasonic diagnosis informationbetween the mobile information and control terminal 140, a local host110 in a first location, and a remote host 120 in a second locationthrough one or more information channels 1401. The control interface14002 receives ultrasonic diagnostic control instructions from anultrasonic diagnostic expert and transmits the ultrasonic diagnosticcontrol instructions to the local host 110, and the remote host 120through one or more control channels 1402.

In certain embodiments, the information multiplexer 14003 receives,exchanges and transmits the ultrasonic diagnosis information through theone or more information channels 1401 in the ultrasonic diagnosticsystem 100. The network interface 14004 connects the mobile informationand control terminal 140 to a communication network 130.

In certain embodiments, the processor 14005 includes a shared processor,a dedicated processor, or group of processors and other suitablehardware components, or a combination of some or all of the above, suchas in a system-on-chip. The processor 14005 may include single core,dual cores or any other permissible number of cores. In certainembodiments, the memory 14006 includes comprises random access memory(RAM) 140061 for supporting the operation of the processor 14005, and anon-volatile storage device (NVSD) 140062. The NVSD 140062 includesread-only memory, flash memory, ferroelectric RAM, most types ofmagnetic computer storage devices, for example hard disk drives (HDD),solid state drives (SSD), floppy disks (FD), magnetic tape, and opticaldiscs. The NVSD 140062 stores an operating system 1400621, and computerexecutable instructions 1400622. The operating system 1400621 includesMicrosoft Windows by Microsoft, macOS by Apple Inc, Android by Google,Linux, Unix, and Solaris by Oracle. The processor 14005 executes thecomputer executable instructions 1400622 for providing the describedfunctionality.

When executed on the processor 14005, the computer executableinstructions 1400622 cause the processor 14005 to perform: establishingnetwork connection between the mobile information and control terminal140, the local host 110 in the first location, a patient database 160and the remote host 120 in the second location through the networkinterface 14004 over the communication network 130, and retrieving, bythe mobile information and control terminal 140, the patient informationof a patient 602 from the patient database 160. The computer executableinstructions 1400622 also cause the processor 14005 to perform:instructing, by an ultrasonic diagnostic expert in the first location,an ultrasonic diagnostic technician 601 in the second location using theultrasonic diagnostic control instructions through the one or morecontrol channels 1402, performing, by the ultrasonic diagnostictechnician 601, ultrasonic diagnostic examination on the patient 602(shown in FIG. 6 ) interactively according to the ultrasonic diagnosticcontrol instructions, receiving, by the mobile information and controlterminal 140, ultrasonic diagnosis information from the ultrasonicdiagnostic technician 601 in real time, and generating, via the mobileinformation and control terminal 140 by the ultrasonic diagnosticexpert, an ultrasonic diagnosis report and transmitting the ultrasonicdiagnosis report to a doctor of the patient 602 and the patient database160.

In certain embodiments, the one or more information channels 1401include: a first information channel I₁, a second information channelI₂, . . . , and an M-th information channel I_(M), where M is a positiveinteger. The one or more information channels 1401 include: one or morepatient information channel for transmission of the patient information,one or more information channels from the local host 110 to the remotehost 120 for demonstrations by the ultrasonic diagnostic expert, one ormore information channels from the remote host 120 to the local host 110for real time ultrasonic diagnosis by the ultrasonic diagnostictechnician 601, and one or more ultrasonic diagnosis report transmissionchannels.

In certain embodiments, the one or more control channels 1402 include: afirst control channel C₁, a second control channel C₂, . . . , and anN-th control channel C_(N), wherein N is a positive integer. The one ormore control channels 1402 include: one or more audio signaltransmission channels, one or more image signal transmission channels,one or more video signal transmission channels, and one or more roboticcontrol signal transmission channels.

In another aspect, the present disclosure relates to an ultrasonicdiagnostic system 100, as shown in FIG. 1 . In certain embodiments, theultrasonic diagnostic system 100 includes: a mobile information andcontrol terminal 140, a local host 110 in a first location (local), anda remote host 120 connected to an ultrasonic diagnostic imaging system170 in a second location (remote). The mobile information and controlterminal 140, the local host 110 and remote host 120 are connectedthrough a communication network 130. A patient database 160 is alsoconnected with the communication network 130 allowing the local host 110and the remote host 120 to access patient information.

In certain embodiments, the mobile information and control terminal 140is operated by an ultrasonic diagnostic expert in the first location.The mobile information and control terminal 140 retrieves patientinformation of a patient 602 from the patient database 160, providesultrasonic diagnostic control instructions from the ultrasonicdiagnostic expert in the first location to an ultrasonic diagnostictechnician 601 in the second location, receives patient ultrasonicdiagnosis information from the remote host 120, and generates anddisplays ultrasonic diagnosis reports of the patient 602.

In certain embodiments, the local host 110 retrieves the patientinformation of the patient 602 from the patient database 160 over thecommunication network 130, provides ultrasonic diagnostic controlinstructions from the ultrasonic diagnostic expert in the first locationto the ultrasonic diagnostic technician 601 in the second location. Theultrasonic diagnostic technician 601 in the second location receives theultrasonic diagnostic control instructions from the ultrasonicdiagnostic expert through the mobile information and control terminaland performs ultrasonic diagnostic examination on the patient 602according to the ultrasonic diagnostic control instructions received.The ultrasonic diagnostic technician 601 transmits ultrasonic diagnosisinformation from the remote host 120 to the ultrasonic diagnostic expertin the first location in real time over the communication network 130interactively. The ultrasonic diagnostic expert then studies theultrasonic diagnosis information received, generates, transmits anddisplays ultrasonic diagnosis reports of the patient 602 both at thelocal host 110 in the first location and at the remote host 120 in thesecond location, and transmits and stores the ultrasonic diagnosisreports of the patient 602 in the patient database 160.

In certain embodiments, the local host 110 may be connected to anultrasonic diagnostic imaging system to allow the ultrasonic diagnosticexpert to perform certain demonstrations and training operations for theultrasonic diagnostic technician 601.

In certain embodiments, the communication network 130 includes: awireless local area network (WLAN), a wireless metropolitan area network(WMAN), a wireless wide area network (WWAN), a cellular network, amobile communication network, and a wireless personal area network(WPAN), and any combination of these networks. The wireless personalarea network includes a Wi-Fi network; a Bluetooth network; an infrarednetwork, and a Zigbee network.

In certain embodiments, the communication network 130 connects the localhost 110, the remote host 120, and the patient database 160 through oneor more information channels 1401 and one or more control channels 1402.

In certain embodiments, the one or more information channels 1401includes: a first information channel I₁, a second information channelI₂, . . . , and an M-th information channel I_(M), where M is a positiveinteger. The one or more control channels 1402 includes: a first controlchannel C₁, a second control channel C₂, . . . , and an N-th controlchannel C_(N), wherein N is a positive integer.

In certain embodiments, the one or more information channels 1401include: one or more document transmission channels, one or more imagetransmission channels, and one or more video transmission channels.

In certain embodiments, the one or more information channels 1401include: one or more patient information channel for transmission of thepatient information, one or more information channels from the localhost 110 to the remote host 120 for demonstrations by the ultrasonicdiagnostic expert, one or more information channels from the remote host120 to the local host 110 for real time ultrasonic diagnosis by theultrasonic diagnostic technician 601, and one or more ultrasonicdiagnosis report transmission channels.

In certain embodiments, the one or more control channels 1402 include:one or more audio signal transmission channels for transmission of audiocommands, one or more image signal transmission channels and one or morevideo signal transmission channels for live transmission of images orvideos showing the maneuvering of the probe 612 or demonstrations. Theone or more control channels 1402 may also include one or more roboticcontrol signal transmission channels such that a robot in the secondlocation may perform ultrasonic diagnosis without helps from theultrasonic diagnostic technician 601.

In certain embodiments, the mobile information and control terminal 140further includes one or more information display devices 150. As shownin FIG. 3 , the one or more information display devices 150 may include:one or more flat panel televisions (TVs) 1501 and 1502, high definitiontelevisions (HDTVs) 1501 and 1502, and ultra-high-definition televisions(UHDTVs) 1501 and 1502, one or more TVs, HDTVs, and UHDTVs 1501 and 1502having touch control panels, one or more computer monitors 1503, and oneor more computer monitors 1503 having touch control panels. The one ormore information display devices 150 may include: one or more smartphones 1505, one or more tablet computers 1506, one or more personaldigital assistant (PDA) devices 1507. The one or more informationdisplay devices 150 may also include: one or more optical projectors150K, one or more laser projectors 150K, and any combinations of deviceslisted above.

In certain embodiments, as shown in FIG. 4 , each of the one or moreinformation display devices 150 is partitioned to display one or moreultrasonic diagnosis information and results from the one or moreinformation channels 1401. For example, the one of the TVs, HDTVs, andUHDTVs 1501 may be partitioned into two large partitions 15011 and15012, for display two information channels that detailed informationneeds to be displayed, and five smaller partitions 15013, 15014, 15015,15016 and 15017, for display five information channels that do notrequire large screen display.

In certain embodiments, the mobile information and control terminal 140displays ultrasonic diagnosis information on the one or more informationdisplay devices 150 through the one or more information channels 1401.In one embodiment, the mobile information and control terminal 140displays the ultrasonic diagnosis information on a TV, HDTV, or UHDTVthrough a cable, or an HDMI cable. In another embodiment, the mobileinformation and control terminal 140 displays the ultrasonic diagnosisinformation on a smart TV, a smart HDTV, or a smart UHDTV using Wi-Finetwork, Bluetooth network. When the mobile information and controlterminal 140 is a smart phone or a tablet, the mobile information andcontrol terminal 140 displays the ultrasonic diagnosis information on asmart TV, a smart HDTV, or a smart UHDTV using screen mirroring, airplayor miracast.

In certain embodiments, as shown in FIG. 5 , the mobile information andcontrol terminal 140 has at least one display device 14011. The displaydevice 14011 may be partitioned to display one or more ultrasonicdiagnosis information and results from the one or more informationchannels 1401. For example, the display device 14011 may be partitionedinto one large partition 140111 for display one information channel thatdetailed information needs to be displayed, and four smaller partitions140112, 140113, 140114, and 140115 for display four information channelsthat do not require large screen display.

In certain embodiments, the partitions may be flexibly configured suchthat the size of each partition may be adjusted according to the needsof the ultrasonic diagnostic experts and the ultrasonic diagnostictechnicians during the diagnostic procedures in real time.

In certain embodiments, the mobile information and control terminal 140includes portable laptop computers, tablet computers, and smart phones.These computers and tablets should at least be connected to the internetand/or communication networks 130.

In certain embodiments, the mobile information and control terminal 140includes one or more camera 14021 for capturing video signals,demonstration video signals, instructional video signals andtransmitting these video signals to the remote host 120 and theultrasonic diagnostic technician 601 for demonstrations andinstructions.

In certain embodiments, the mobile information and control terminal 140includes at least one microphone 14031 for capturing audio signals,demonstration audio signal and instructional audio signals andtransmitting these audio signals to the remote host 120 and theultrasonic diagnostic technician 601 for demonstrations andinstructions.

In certain embodiments, the mobile information and control terminal 140may include a joystick (not shown in FIG. 5 ) or simulated probe suchthat the ultrasonic diagnostic expert can use to generate roboticcontrol signal to be transmitted to the remote host 120 and theultrasonic diagnostic imaging system 610 and to control the robotic armfor performing ultrasonic diagnostic examination on the patient with arobot.

In certain embodiments, the partitions may be flexibly configured suchthat the size of each partition may be adjusted according to the needsof the ultrasonic diagnostic experts and the ultrasonic diagnostictechnicians during the diagnostic procedures in real time.

Referring back to FIG. 1 , in certain embodiments, the local host 110includes: a local information interface 111, a local control interface112, a local network interface 113, a local information multiplexer 114,a local processor 115 and a local memory 116.

The local information interface 111 receives and transmits ultrasonicdiagnosis information between the local host 110 and the remote host 120through the one or more information channels 1401. The local controlinterface 112 receives the ultrasonic diagnostic control instructionsfrom the ultrasonic diagnostic expert through the mobile information andcontrol terminal 140 and transmits the ultrasonic diagnostic controlinstructions to the remote host 120 through the one or more controlchannels 1402. The local network interface 113 connects the local host110 to the communication network 130 through the one or more informationchannels 1401 and the one or more control channels 1402. The localinformation multiplexer 114 receives, exchanges and transmits theultrasonic diagnosis information through the one or more informationchannels 1401 in the ultrasonic diagnostic system 100.

In certain embodiments, the local processor 115 includes a sharedprocessor, a dedicated processor, or group of processors and othersuitable hardware components, or a combination of some or all of theabove, such as in a system-on-chip. The local processor 115 may includesingle core, dual cores or any other permissible number of cores. Incertain embodiments, the local memory 116 includes comprises randomaccess memory (RAM) 1161 for supporting the operation of the localprocessor 115, and a non-volatile storage device (NVSD) 1162. The NVSD1162 includes read-only memory, flash memory, ferroelectric RAM, mosttypes of magnetic computer storage devices, for example hard disk drives(HDD), solid state drives (SSD), floppy disks (FD), magnetic tape, andoptical discs. The NVSD 140062 stores an operating system 11621, andcomputer executable instructions 11622. The operating system 11621includes Microsoft Windows by Microsoft, macOS by Apple Inc, Android byGoogle, Linux, Unix, and Solaris by Oracle. The local processor 115executes the computer executable instructions 11622 for providing thedescribed functionality.

When executed on the local processor 115, the computer executableinstructions 11622 cause the local processor 115 to perform:establishing network connection between the mobile information andcontrol terminal 140, the local host 110 in the first location throughthe local network interface 113, the patient database 160 and the remotehost 120 in the second location through a remote network interface 123over the communication network 130, retrieving, by the local host, thepatient information of the patient 602 from the patient database 160.The computer executable instructions 11622 further cause the localprocessor 115 to perform: instructing, by sending the ultrasonicdiagnostic control instructions to the ultrasonic diagnostic technician601, the ultrasonic diagnostic technician 601 in the second location toperform ultrasonic diagnostic examination on the patient 602interactively according to the ultrasonic diagnostic controlinstructions, receiving, from the remote host 120, ultrasonic diagnosisinformation in real time; generating, by the ultrasonic diagnosticexpert, an ultrasonic diagnosis report and transmitting the ultrasonicdiagnosis report to a doctor of the patient 602 and the patient database160.

In certain embodiments, the remote host 120 includes: a remoteinformation interface 121, a remote control interface 122, the remotenetwork interface 123, a remote information multiplexer 124, a remoteprocessor 125 and a remote memory 126.

The remote information interface 121 receives and transmits ultrasonicdiagnosis information between the local host 110 and the remote host 120through the one or more information channels 1401. The remote controlinterface 122 receives the ultrasonic diagnostic control instructionsfrom the ultrasonic diagnostic expert through the mobile information andcontrol terminal 140 over the one or more control channels 1402. Thenetwork interface 123 connects the remote host 120 to the communicationnetwork 130 through the one or more information channels 1401 and theone or more control channels 1402. The information multiplexer 124receives, exchanges and transmits the ultrasonic diagnosis informationthrough the one or more information channels 1401 in the ultrasonicdiagnostic system 100.

In certain embodiments, the remote processor 125 includes a sharedprocessor, a dedicated processor, or group of processors and othersuitable hardware components, or a combination of some or all of theabove, such as in a system-on-chip. The remote processor 125 may includesingle core, dual cores or any other permissible number of cores. Incertain embodiments, the remote memory 126 includes comprises randomaccess memory (RAM) 1261 for supporting the operation of the remoteprocessor 125, and a non-volatile storage device (NVSD) 1262. The NVSD1262 includes read-only memory, flash memory, ferroelectric RAM, mosttypes of magnetic computer storage devices, for example hard disk drives(HDD), solid state drives (SSD), floppy disks (FD), magnetic tape, andoptical discs. The NVSD 1262 stores an operating system 12621, andcomputer executable instructions 12622. The operating system 12621includes Microsoft Windows by Microsoft, macOS by Apple Inc, Android byGoogle, Linux, Unix, and Solaris by Oracle. The remote processor 125executes the computer executable instructions 11622 for providing thedescribed functionality.

When executed on the remote processor 125, the computer executableinstructions 12622 cause the remote processor 125 to perform:establishing network connection between the mobile information andcontrol terminal 140, the local host 110 in the first location throughthe local network interface 113, the patient database 160 and the remotehost 120 in the second location through the remote network interface 123over the communication network 130, receiving, by the ultrasonicdiagnostic technician 601 in the second location, the ultrasonicdiagnostic control instructions, performing, by the ultrasonicdiagnostic technician 601, ultrasonic diagnostic examination on thepatient 602 interactively according to the ultrasonic diagnostic controlinstructions; transmitting, by the ultrasonic diagnostic technician 601,ultrasonic diagnosis information in real time to the ultrasonicdiagnostic expert through the one or more information channels 1401, andreceiving, by the ultrasonic diagnostic technician 601, ultrasonicdiagnosis report from the ultrasonic diagnostic expert.

In yet another aspect, the present disclosure relates to a method ofusing an ultrasonic diagnostic system 100. In certain embodiments, themethod includes: installing a local host 110 in a first location wherean ultrasonic diagnostic expert is performing ultrasonic diagnosis usingultrasonic diagnostic control instructions via a mobile information andcontrol terminal 140, installing a remote host 120 in a second locationwhere an ultrasonic diagnostic technician 601 is performing ultrasonicdiagnosis on a patient 602 using an ultrasonic diagnostic imaging system170 according to the ultrasonic diagnostic control instructions,connecting the local host 110, the remote host 120, a patient database160 to a communication network 130 through one or more informationchannels 1401 and one or more control channels 1402, and retrieving, bythe local host 110, patient information of the patient 602 from thepatient database 160 and displaying the retrieved patient information tothe ultrasonic diagnostic expert.

In certain embodiments, the method also includes: providing, by theultrasonic diagnostic expert in the first location, the ultrasonicdiagnostic control instructions to the ultrasonic diagnostic technician601 through the one or more control channels 1402, receiving, by theultrasonic diagnostic technician 601 in the second location, theultrasonic diagnostic control instructions and performing ultrasonicdiagnostic examination on the patient 602 interactively according to theultrasonic diagnostic control instructions received, transmitting, bythe ultrasonic diagnostic technician 601, ultrasonic diagnosisinformation to the ultrasonic diagnostic expert in real time through theone or more information channels 1401, and generating, by the ultrasonicdiagnostic expert, an ultrasonic diagnosis report, and transmitting theultrasonic diagnosis report to a doctor of the patient 602 and thepatient database 160.

Referring now to FIG. 7 , a flow chart 700 of a method of using theultrasonic diagnostic system is shown according to certain embodimentsof the present disclosure.

At block 702, after the local host 110 is installed in the firstlocation and connected to the mobile information and control terminal140 through the communication network 130, the remote host 120 isinstalled in the second location and connected to the ultrasonicdiagnostic imaging system 610, and the patient database 160 isinstalled, the communication network 130 is used to connect the localhost 110, the remote host 120, and the patient database 160 through oneor more information channels 1401 and one or more control channels 1402.

In certain embodiments, the local host 110 includes: a local informationinterface 111, a local control interface 112, a local network interface113, a local information multiplexer 114, a local processor 115 and alocal memory 116.

In certain embodiments, the remote host 120 includes: a remoteinformation interface 121, a remote control interface 122, a remotenetwork interface 123, a remote information multiplexer 124, a remoteprocessor 125 and a remote memory 126.

In certain embodiments, the mobile information and control terminal 140further includes one or more information display devices 150. Each ofthe one or more information display devices 150 is partitioned todisplay one or more ultrasonic diagnosis information and results fromthe one or more information channels 1401.

At block 704, an ultrasonic diagnostic expert uses the mobileinformation and control terminal 140 to perform ultrasonic diagnosticexamination with the ultrasonic diagnostic imaging system on a patient602 at the remote host 120 in the second location.

At block 706, the ultrasonic diagnostic expert provides ultrasonicdiagnostic control instructions to an ultrasonic diagnostic technician601 over the communication network 130 through the one or more controlchannels 1402. The ultrasonic diagnostic control instructions providedallow the ultrasonic diagnostic technician 601 to perform ultrasonicdiagnostic examination on the patient at the remote host 120 in thesecond location.

At block 708, the remote host 120 interactively provides real timeultrasonic diagnosis information back to the ultrasonic diagnosticexpert over the communication network 130 through the one or moreinformation channels 1401.

The block 706 and block 708 form a loop that can be repeated many timeuntil the ultrasonic diagnostic expert obtains satisfactory results ofthe ultrasonic diagnostic examination.

At query block 710, the ultrasonic diagnostic expert is asked whetherthe ultrasonic diagnostic examination is competed. When the ultrasonicdiagnostic examination is completed, the method proceeds to block 712.When more ultrasonic diagnostic examination is desired, the methodproceeds to block 706 and continues to perform the ultrasonic diagnosticexamination.

At block 712, once the ultrasonic diagnostic examination is completed,the ultrasonic diagnostic expert prepares ultrasonic diagnostic report,and sends the ultrasonic diagnostic report to doctors of the patient 602and the patient database 160.

The foregoing description of the exemplary embodiments of the disclosurehas been presented only for the purposes of illustration and descriptionand is not intended to be exhaustive or to limit the disclosure to theprecise forms disclosed. Many modifications and variations are possiblein light of the above teaching.

The embodiments were chosen and described in order to explain theprinciples of the disclosure and their practical application so as toenable others skilled in the art to utilize the disclosure and variousembodiments and with various modifications as are suited to theparticular use contemplated. Alternative embodiments will becomeapparent to those skilled in the art to which the present disclosurepertains without departing from its spirit and scope. Accordingly, thescope of the present disclosure is defined by the appended claims ratherthan the foregoing description and the exemplary embodiments describedtherein.

What is claimed is:
 1. A method of using an ultrasonic diagnosticsystem, comprising: installing a local host in a first location where anultrasonic diagnostic expert is performing ultrasonic diagnosis usingultrasonic diagnostic control instructions via a mobile information andcontrol terminal; installing a remote host in a second location where anultrasonic diagnostic technician is performing ultrasonic diagnosticexamination on a patient using an ultrasonic diagnostic imaging systemaccording to the ultrasonic diagnostic control instructions from theultrasonic diagnostic expert; connecting the mobile information andcontrol terminal, the local host, the remote host, a patient database toa communication network through a plurality of information channels anda plurality of control channels; retrieving, by the mobile informationand control terminal, patient information of the patient from thepatient database and displaying the retrieved patient information to theultrasonic diagnostic expert; providing, by the ultrasonic diagnosticexpert in the first location, ultrasonic diagnostic control instructionsto the ultrasonic diagnostic technician through the plurality of controlchannels; receiving, by the ultrasonic diagnostic technician in thesecond location, the ultrasonic diagnostic control instructions andperforming ultrasonic diagnostic examination on the patientinteractively according to the ultrasonic diagnostic controlinstructions; transmitting, by the ultrasonic diagnostic technician,ultrasonic diagnosis information to the ultrasonic diagnostic expertinteractively in real time through the plurality of informationchannels; and generating, by the ultrasonic diagnostic expert, anultrasonic diagnosis report, and transmitting the ultrasonic diagnosisreport to a doctor of the patient and the patient database.
 2. Themethod according to claim 1, wherein the communication networkcomprises: a wireless personal area network (WPAN) having a Wi-Finetwork; a Bluetooth network; an infrared network, and a Zigbee network,a wireless local area network (WLAN); a wireless metropolitan areanetwork (WMAN); a wireless wide area network (WWAN); a cellular network;a mobile communication network; and any combinations thereof.
 3. Themethod according to claim 1, wherein the plurality of informationchannels comprises a first information channel I1, a second informationchannel I2, . . . , and an M-th information channel IM, where M is apositive integer, wherein the plurality of information channelscomprises: one or more patient information channel for transmission ofthe patient information; one or more information channels from the localhost to the remote host for demonstrations by the ultrasonic diagnosticexpert; one or more information channels from the remote host to thelocal host for real time ultrasonic diagnosis by the ultrasonicdiagnostic technician; and one or more ultrasonic diagnosis reporttransmission channels.
 4. The method according to claim 1, wherein theplurality of control channels comprises a first control channel C₁, asecond control channel C₂, . . . , and an N-th control channel C_(N),where N is a positive integer, wherein the plurality of control channelscomprises: one or more audio signal transmission channels; one or moreimage signal transmission channels; one or more video signaltransmission channels; and one or more robotic control signaltransmission channels.
 5. The method according to claim 1, wherein themobile information and control terminal further comprises one or moreinformation display devices, wherein each of the one or more informationdisplay devices is partitioned to display one or more ultrasonicdiagnosis information and results from the plurality of informationchannels.
 6. The method according to claim 5, wherein the one or moreinformation display devices comprise at least one of: a flat paneltelevisions (TV), high definition televisions (HDTV), andultra-high-definition televisions (UHDTV); a TV, HDTV, and UHDTV havingtouch control panel; a computer monitor; a computer monitor having touchcontrol panel; a smart phone; a tablet computer; a personal digitalassistant (PDA) device; an optical projector; a laser projector.
 7. Themethod according to claim 6, wherein the local host comprises: a localinformation interface for receiving and transmitting ultrasonicdiagnosis information between the local host and the remote host throughthe plurality of information channels; a local control interface forreceiving the ultrasonic diagnostic control instructions from the mobileinformation and control terminal and transmitting the ultrasonicdiagnostic control instructions to the remote host through the pluralityof control channels; a local network interface for connecting the localhost to the communication network; a local information multiplexer forreceiving, exchanging and transmitting the ultrasonic diagnosisinformation through the plurality of information channels in theultrasonic diagnostic system; a local processor and a local memory,wherein the local memory comprises double data rate (DDR) random accessmemory (RAM) for supporting the operation of the local processor, anon-volatile storage device (NVSD) storing an operating system, andcomputer executable instructions, when executed on the local processor,the computer executable instructions cause the local processor toperform: establishing network connection between the mobile informationand control terminal, the local host in the first location through thelocal network interface, the patient database and the remote host in thesecond location through a remote network interface over thecommunication network; retrieving, by the local host, the patientinformation of the patient from the patient database; instructing, bysending the ultrasonic diagnostic control instructions to an ultrasonicdiagnostic technician, the ultrasonic diagnostic technician in thesecond location to perform ultrasonic diagnostic examination on thepatient interactively according to the ultrasonic diagnostic controlinstructions; receiving, from the remote host, ultrasonic diagnosisinformation interactively in real time; and generating, by theultrasonic diagnostic expert, an ultrasonic diagnosis report andtransmitting the ultrasonic diagnosis report to the doctor of thepatient and the patient database.
 8. The method according to claim 7,wherein the remote host comprises: a remote information interface forreceiving and transmitting ultrasonic diagnosis information between thelocal host and the remote host through the plurality of informationchannels; a remote control interface for receiving the ultrasonicdiagnostic control instructions from the mobile information and controlterminal through the plurality of control channels; the remote networkinterface for connecting the remote host to the communication network; aremote information multiplexer for receiving, exchanging andtransmitting the ultrasonic diagnosis information through the pluralityof information channels; a remote processor and a remote memory, whereinthe remote memory comprises double data rate (DDR) random access memory(RAM) for supporting the operation of the remote processor, anon-volatile storage device (NVSD) storing an operating system, andcomputer executable instructions, when executed on the remote processor,the computer executable instructions cause the remote processor toperform: establishing network connection to the patient database and theremote host in the second location through the remote network interfaceover the communication network; receiving, by the ultrasonic diagnostictechnician in the second location, the ultrasonic diagnostic controlinstructions; performing, by the ultrasonic diagnostic technician,ultrasonic diagnostic examination on the patient interactively accordingto the ultrasonic diagnostic control instructions; transmitting, by theultrasonic diagnostic technician, ultrasonic diagnosis information tothe ultrasonic diagnostic expert interactively in real time through theplurality of information channels; and receiving, by the ultrasonicdiagnostic technician, an ultrasonic diagnosis report of the patientfrom the ultrasonic diagnostic expert.